Air was compressed (polytropic process) from p1= 100kPa and T1= 293Kto p2= 0.3MPa and v2=0.2803m3/kg. The...

In a cylinder/piston arrangement, air is compressed in a reversible polytropic process to a final state...

In a cylinder/piston arrangement, air is compressed in a reversible polytropic process to a final state of 800 kPa, 500 K. Initially air is at 110 kPa and 25oC. During the compression process heat transfer takes place with the ambient maintained at 25oC. Assume air as an ideal gas (R =0.287 kJ/kg) and has constant specific heats of Cp = 1.004 kJ/kgK and Cv = 0.717 kJ/kgK. If the mass of air in the cylinder is 0.1286 kg, determine a)...

Air is compressed by a 46-kW compressor from P1 to P2. The air temperature is maintained...

Air is compressed by a 46-kW compressor from P1 to P2. The air temperature is maintained constant at 25°C during this process as a result of heat transfer to the surrounding medium at 20°C. Determine the rate of entropy change of the air. The rate of entropy change of the air is  kW/K.

A) 1 kg of air with a pressure of 13 bar and a temperature of 125...

A) 1 kg of air with a pressure of 13 bar and a temperature of 125 ° C is heated as isobar up to 550 ° C. a) Work done during heating, b) Internal energy and enthalpy change, c) Calculate the amount of heat consumed. (R = 287 j / kgK, x = 1,4) B) An ideal gas with a pressure of 1 bar and a volume of 0.5m³ is compressed isothermally up to 17 bar pressure. Calculate the volume...

Air at 1,373 K, 977 kPa expands in a polytropic process, n = 1.4, to a...

Air at 1,373 K, 977 kPa expands in a polytropic process, n = 1.4, to a final pressure of 218 kPa. Determine the specific entropy generation for this process, if the surroundings are maintained at 300 K. Provide your answer with 2 decimal places. b) any equations used in variable form, and with numbers and units c) v1, where "v" represents specific volume d) v2, where "v" represents specific volume e) P2 f)T2 g) 1w2 f) 1q2 g) change in...

0.5 kilograms of air are compressed from 100 kPa and 300 K in a polytropic process,...

0.5 kilograms of air are compressed from 100 kPa and 300 K in a polytropic process, n = 1.3, to a state where V2 = 0.5 V1. The air is further compressed at constant pressure until the final volume is 0.2 V1 . Draw a sketch of the processes on a p-V diagram. Determine the work for each process.

A 5 kg mass of R134a refrigerant is compressed polytropically from the state initial: p1 =...

A 5 kg mass of R134a refrigerant is compressed polytropically from the state initial: p1 = 1 bar, T1 = 27 ° C until the final state: p2 = 15 bar, T2 = 227 ° C. Specific heat R134a medium at constant volume, Cv = 0.72 kJ / kg K. Calculate: a) exponent of polytropy; b) final volume; c) final volume using the virial state equation d) work done on the gas for compression; e) amount of heat given up...

Carbon dioxide (CO2) is compressed in a piston–cylinder assembly from p1 = 0.7 bar, T1 =...

Carbon dioxide (CO2) is compressed in a piston–cylinder assembly from p1 = 0.7 bar, T1 = 280 K to p2 = 14 bar. The initial volume is 0.2 m3. The process is described by pV1.25 = constant. Assuming ideal gas behavior and neglecting kinetic and potential energy effects, determine the work and heat transfer for the process, each in kJ, using constant specific heats evaluated at 300 K, and data from Table A-23.

In the initial state, an ideal gas has pressure p1, volume V1 and temperature T1. Now...

In the initial state, an ideal gas has pressure p1, volume V1 and temperature T1. Now the gas changes its state by effecting a state change so that it reaches the pressure p2, the volume V2 and the temperature T2 in the new state. The pressure doubles during this state change, which is an isochore process. a) Find the work W performed during the isochore process. b) The heat Q is exchanged between the gas and the surroundings during the...

One mole of air is compressed from pressure P1 and temperature T1 at constant volume till...

One mole of air is compressed from pressure P1 and temperature T1 at constant volume till its pressure is doubled. Then it is expanded reversibly and isothermally to the original pressure, and finally restored to the original temperature by cooling at constant pressure. Sketch the path followed by the gas, on a P-V diagram and calculate the net work done by the gas.

Consider a turbine; working substance is air. Cp = 1.0 kJ/kgK , k=1.4 ,V1=0.03 m3/kg ,...

Consider a turbine; working substance is air. Cp = 1.0 kJ/kgK , k=1.4 ,V1=0.03 m3/kg , V2=0.08 , P1 = 2.5 bar ; state 1 is enterance, state 2 is the exit of the turbine. The turbine is not ideal (isentropic); the air goes through a state change according to PV^n = constant , n =1.6 Compute the ideal and actual specific works and turbine efficiency.